Astronomers Detect Radio Signal from Most Distant Galaxy Yet (space.com) 18
"Astronomers have detected a radio signal from the most distant galaxy yet," reports Space.com — thanks to a naturally occurring phenomenon called gravitational lensing.
"The signal is bent by the presence of another massive body, another galaxy, between the target and the observer," says researcher Nirupam Roy, an Associate Professor in the Department of Physics at the Indian Institute of Science. In a statement announcing the discovery, Roy says "This effectively results in the magnification of the signal by a factor of 30, allowing the telescope to pick it up." According to the researchers, these results demonstrate the feasibility of observing faraway galaxies in similar situations with gravitational lensing. It also opens exciting new opportunities for probing the cosmic evolution of stars and galaxies with existing low-frequency radio telescopes.
Their annoncement adds that "The researchers observed the atomic mass of the gas content of this particular galaxy is almost twice the mass of the stars visible to us."
More information from Space.com: The signal was detected at a special and significant wavelength known as the "21-centimeter line" or the "hydrogen line," which is emitted by neutral hydrogen atoms. The detection of the hydrogen line from such a galaxy so far away âS — âS and therefore so early in the universe âS — âS by the Giant Metrewave Radio Telescope in India could mean astronomers are ready to begin investigating the formation of the earliest stars and galaxies.
The signal from the star-forming galaxy SDSSJ0826+5630 was emitted when our 13.8 billion-year-old galaxy was just 4.9 billion years old.... Galaxies emit electromagnetic radiation, or light, across a wide range of radio wavelengths, but thus far 21-cm-wavelength radio waves have only been seen from nearby and thus more recent galactic sources.
"It's the equivalent to a look-back in time of 8.8 billion years," lead author and McGill University Department of Physics Post-Doctoral cosmologist Arnab Chakraborty, said of the breakthrough in a statement...
The team's research is detailed in a paper published in the Monthly Notices of the Royal Astronomical Society.
"The signal is bent by the presence of another massive body, another galaxy, between the target and the observer," says researcher Nirupam Roy, an Associate Professor in the Department of Physics at the Indian Institute of Science. In a statement announcing the discovery, Roy says "This effectively results in the magnification of the signal by a factor of 30, allowing the telescope to pick it up." According to the researchers, these results demonstrate the feasibility of observing faraway galaxies in similar situations with gravitational lensing. It also opens exciting new opportunities for probing the cosmic evolution of stars and galaxies with existing low-frequency radio telescopes.
Their annoncement adds that "The researchers observed the atomic mass of the gas content of this particular galaxy is almost twice the mass of the stars visible to us."
More information from Space.com: The signal was detected at a special and significant wavelength known as the "21-centimeter line" or the "hydrogen line," which is emitted by neutral hydrogen atoms. The detection of the hydrogen line from such a galaxy so far away âS — âS and therefore so early in the universe âS — âS by the Giant Metrewave Radio Telescope in India could mean astronomers are ready to begin investigating the formation of the earliest stars and galaxies.
The signal from the star-forming galaxy SDSSJ0826+5630 was emitted when our 13.8 billion-year-old galaxy was just 4.9 billion years old.... Galaxies emit electromagnetic radiation, or light, across a wide range of radio wavelengths, but thus far 21-cm-wavelength radio waves have only been seen from nearby and thus more recent galactic sources.
"It's the equivalent to a look-back in time of 8.8 billion years," lead author and McGill University Department of Physics Post-Doctoral cosmologist Arnab Chakraborty, said of the breakthrough in a statement...
The team's research is detailed in a paper published in the Monthly Notices of the Royal Astronomical Society.
Signal (Score:4, Interesting)
Haha. Idiots don't know the difference between a signal and an emission. What was the galaxy signalling? Probably in Morse code.
Re:Signal (Score:5, Funny)
Its spectrum. It was signaling its chemical makeup.
21 centimeter band you say? (Score:2)
Why does that sound so familiar [wikipedia.org]?
thanks for making me do math (Score:3)
The signal from the star-forming galaxy SDSSJ0826+5630 was emitted when our 13.8 billion-year-old galaxy was just 4.9 billion years old.
If Bob was 12 when his sister was half his age how old is she when he is 24?
Re: thanks for making me do math (Score:1)
Re: (Score:2)
The signal from the star-forming galaxy SDSSJ0826+5630 was emitted when our 13.8 billion-year-old galaxy was just 4.9 billion years old.
If Bob was 12 when his sister was half his age how old is she when he is 24?
Legal age (in the U.S.)
So really just more of the same then. (Score:3)
It would have been far more interesting if these galaxies were exhibiting behaviour that wouldn't be possible with the laws of physics as they are here and now.
Re: (Score:2)
Re: So really just more of the same then. (Score:2)
They did, back then.
Buf, you see, as the laws of physics evoveld through time, so did the signal traveling based on them. It got seamlessly "translated on-the-fly", so to speak, from what would've been the past equivalent od a "21 cm hydrogen line" in that physics to our 21 cm line in this physics.
Or something.
X Files (Score:1)
Re: (Score:2)
No, its "...Stay out of my galaxy too! [youtube.com]"
Re: (Score:2)
The Message (Score:4, Funny)
Send... more... Chuck... Berry...
Your optimism is showing (Score:2)
Surely it would have contained the speeches of the leader whose wisdom we desperately need. Really. We do. The aliens told we do... ;)
Better get a reply out. (Score:2)
Time is of the essence. If we get it out now it'll be received by the year 8,800,002,023.
Oh wait... how fast is it travelling away from us?